NL8005222A - CITY OR BLOCK HEATING SYSTEM. - Google Patents

Description

Η Β Ar / AS / AWB / 8 '* "District or block heating system"

The invention relates to a district or block heating system comprising a primary conduit circuit containing a first heating medium with a heat source for heating that medium and a number of separate composite heat consumption installations intended at least for space heating and tap water heating, each comprising at least one secondary conduit circuit, secondary conduit circuit, space heaters and tap water heater 10, said secondary conduit circuit over a first heat exchanger with the primary conduit circuit and over a second heat exchanger with the tap water conduit of that the appliance is thermally coupled.

A district or block heating system of this type is known from European Patent Application Laid-Open No. 0 000 401. In this system, the heat consumers, such as the space heaters (radiators of the central heating) and the tap water heater (for example a boiler) are connected to the secondary pipe circuit via the second heat exchanger and are connected to the first heat exchanger for heat transfer. water evaporates and the steam formed is condensed in the second heat exchanger. The system is controlled by controlling the amount of water that is evaporated per unit time in the second pipe circuit. This two-phase system is expensive and difficult to control accurately, it introduces additional losses and in most cases requires a third heat exchanger for the preparation of domestic hot water.

The. The object of the invention is to provide a heating system with 30 separate consumption installations, each of which is thermally coupled over a heat exchanger to the primary piping circuit, that is, the advantages of such a system, such as allowing much higher temperatures and pressures, the use of thinner and easier isolatable 8005222 - * -2-, thus cheaper pipes in the primary piping circuit, which considerably reduces the losses in that circuit and considerably reduces the risk of leakage of tap water with possibly toxic heating medium of ' the primary circuit comes into contact, but does not have the drawbacks of the known heating system. It achieves this in that in the heating system of the type described in the preamble, the space heating devices are incorporated directly into the secondary pipe circuit and means for controlling the flow flowing through the main room of the first heat exchanger depending on the heat consumption. heating medium. In this system, the temperature of the heating medium (usually water) in the secondary line 15 circuit is considerably lower than that of the steam in the known system, so that better and cheaper thermal insulation is possible and smaller losses occur. Furthermore, the secondary piping system needs to be made less pressure-resistant and the amount of heat to be transferred is regulated by controlling the flow of heating medium flowing through the primary space of the first heat exchanger, which regulation can be carried out in a simple manner with precision. The heat exchanger of the appliance for the supply of domestic hot water is the second heat exchanger directly integrated in the secondary pipe circuit. This also simplifies the system and reduces losses. .

The district or block heating system according to the invention can be implemented in various ways.

In a first embodiment, the space heaters and the main room of the second heat exchanger of a heat consumption installation are connected over a three-way valve between the ends of the series connection of the link room of the first heat exchanger and a circulation pump 35 and the three-way valve is arranged in such a way, that the space heating devices or the primary space of the second heat exchanger can be connected to one end of this series circuit by means of this tap. The individual 8005222 η. * -3- heating systems of this system work in much the same way as the usual central heating systems with space heating and tap water heating.

The system according to the invention can also be designed in such a way that the space heaters and the main room of the second heat exchanger of a heat consumption installation with their supply ends over a first three-way valve on the return line of the series circuit of the first heat exchanger and a circulation pump and with their return ends connected to the supply end of that series connection via an adjustable second three-way valve, the first three-way valve is arranged and constructed in such a way that the valve or the space heaters or the primary room of the second heat exchanger with the return area of the series connection is / is connectable, the second three-way valve is designed as a controllable, gradually switchable switching valve and is arranged in such a way that through that valve either only the space heating devices, or only the primary space of the second heat exchanger, or both those devices over an openi ng with adjustable bore if that primary space is / is connectable to the supply end of that series circuit over an opening with complementary bore, and. that the return flow from the primary space of the second heat exchanger is connected at the supply end of the space heaters via a pipe with a non-return valve closing to that return flow. In this installation, if both the space heaters and the tap water heater require heat, the space heaters, as long as hot water is tapped, are supplied with the return water from the main room of the second heat exchanger. The series / parallel connection of the space heaters and the tap water heater possible with this version. appears to benefit the stability of the space heating.

If, in a heating system according to the invention, the heat consumption installations are connected in parallel between each other between the supply line and the return line of 8005222 I - - * + -4- a primary ring line connected to the heat source, the means for controlling the heat consumption depending on the the flow of heating medium flowing through the primary space of the first heat exchanger of a heat consumption installation consists at least of an automatically operable valve included in the supply or return pipe of that primary heat exchanger space, which valve is opened only on demand for heat. Said means can therefore also comprise an automatically operable valve included in said return line with a passage controllable by the temperature of the heating medium flowing through said return line.

As in the system according to European Patent Application No. 0 000 401, if the heat consumption installations 15 are connected in series in a primary ring line connected to the heat source, the means for regulating the flow of heating medium flowing through the primary space of the first heat exchanger of a heat consumption installation, depending on the heat consumption, at least consist of a three-way valve designed as a controllable, gradually switchable switch tap, which is arranged in such a way that through that tap either only the primary space of the first heat exchanger, or only a connecting channel bridging this primary space, or both said primary space an opening with adjustable passage if that bridging connecting channel can be connected in series in the ring line over an opening with complementary passage, and that said three-way cock is adjustable depending on the heat requirement and the temperature difference over the primary space of the first heat exchanger.

The invention will be explained in more detail with reference to the drawing. In the drawing: Fig. 1 is a diagram of a first embodiment of a district or block heating system according to the invention; Fig. 2 shows a diagram of a second embodiment of that system; and FIG. 3 is a schematic diagram of a variant of the 8005222 * -p -5-1 primary conduit circuit for the power supply of the heat consuming installations shown in FIGS. 1 and 2.

In all diagrams 1 is the supply pipe and 2 the return pipe of a ring pipe connected to a heat source (not shown) 5, in which a first heating medium, for example water, of high temperature, for example above 200 ° C, and high pressure, for example above 20 atmospheres, is pumped around.

. In Figs. 1 and 2, the primary spaces 3 of 10 are a first heat exchanger 4 of separate heat consuming installations connected in parallel to each other between the supply line 1 and the return line 2. Each of those primary spaces 3 is connected via a supply line 5 with a remotely controllable valve 6 to the supply line 1 and via a return line 15 with a remotely controllable valve 8 to the return line 2. The shut-off valve 6 is closed as the heat consuming installation for neither the space heating nor the tap water heating. requires heat, but it is opened as soon as the room thermostat (not shown) or the tap-20 water thermostat (not shown) gives the signal that the room (s) to be heated or the tap water to be heated are kept at temperature heat is needed. The valve 8 is a valve with a passage 25 adjustable by the temperature of the heating medium flowing through the return line 7 and ensures that this temperature does not exceed a set value.

In Fig. 1, a secondary pipe circuit, in which water generally flows, is connected to the secondary space 9 of the first heat exchanger 4. A circulation pump 11 is included in the supply line 10 of said secondary space 9. The suction side of that pump is both with the return pipe 12 of the space heaters, for example radiators 13, and with the return pipe 14 of the main room 15 of a second heat exchanger 16, of which 35 the secondary space 17 is included in the tap water pipe 18, ' connected. An expansion vessel 19 with a safety valve 20 is connected to the return line 14.

The return line 21 of the link room 9 of the first heat exchanger 4 is connected to the input port 22 of 8005222 4 -6-L * '- a three-way valve. One outlet port 23 of that valve is connected to the supply line 24 of the radiators 13 and the other output port 25 of the three-way valve is connected to the supply line 26 of the main room 15 of the second heat exchanger 16. The three-way valve is remotely controlled, for example, in such a way that normally ports 22 and 23 are connected to each other, so that the radiators 13 are supplied with hot water as soon as the room thermostat or a system of the room thermostat and an outside thermostat 10 to heat requires space heating and as a result the valve 6 is opened. Through the valve 8 with adjustable orifice, the flow of primary medium through the primary space 3 of the heat exchanger is regulated such that the medium is cooled to a determined temperature or to a lower temperature, if more heat is required than corresponding with the maximum passage of the valve 8, it being assumed that in the open position the valve 6 has a greater than that maximum passage.

As soon as the tap water heater requires heat to bring the temperature to or keep the tap water at temperature, the tap water thermostat takes over control of the room thermostat and the three-way valve is switched to port 25 · /. so that the radiators 13 of the first heat exchanger 4 and the pump 11 are turned off, but the second heat exchanger 16 in the pump circuit is included.

In the secondary space 17 of the second heat exchanger 16, the discharge pipe 27 connected to the secondary chamber is fitted with an automatic mixer tap 28 in the form of a gradually reversible tap which can be controlled by the temperature of the hot water that has been drawn off. The port 29 of that mixer tap is with the discharge pipe 27, the port 30 thereof is with the drain pipe 31 and the port 32 thereof is connected to the cold water pipe 33. In the drawn condition, the drain pipe 31 is only connected to the drain or hot water pipe 27. If the temperature of the discharged hot water is too high, the mixer tap 28 is slowly turned clockwise, gradually reducing the passage of port 29 and opening port 32 gradually. Cold water from line 33 is then mixed with the hot water from 8 0 0 5 2 2 2 -7- U- = line 27. In this way the temperature of the water drained by the line 31 can be kept substantially constant at a set value.

In the heating system according to Figure 2, the primary line circuit 1-9 is equal to that of the system according to Figure 1. In the supply line 10 of the. link room 9 of the first heat exchanger 4, the circulation pump 11 of the secondary line circuit is included again and the return line 21 of the room 9 is again over 10 the remote controllable three-way valve 22, 23, 25 by the room thermostat and the tap water thermostat. line 24 with radiators 13 for space heating ,. or connectable via line 26 to the primary space 15 of the second heat exchanger 16 for the tap water heating. In this case, however, the return line 12 of the radiators 13 and the return line 14 are not direct, but each have their own gate 34, respectively. 35 and the common third port 36 of a remotely controllable three-way valve 37 acting as a gradually switchable switch tap connected to the suction side of the pump 11. The three-way valve operates in such a way that as the passage of port 35 gradually decreases, the passage of port 34 gradually increases.

Between the return pipe 14 of the primary space 15 of the second heat exchanger 16 and the supply pipe 24 of the radiators 13, a connecting pipe 38 is provided with a non-return valve 39 closing to that return pipe.

The control of the three-way valve 37 is, for example, such that when only the radiators 13 request heat, the ports 22, 23 of the first three-way valve 30, 22, 23, 25 are mutually connected, only the return line 12 of the radiators 13 over port 34 with maximum passage and port 36 on the suction side of pump 11 is connected. If only the tap water requires heat and the ports 22, 25 of the first three-way valve 22, 23, 25 are thus mutually connected, the three-way valve 37 connects the port 35 with maximum passage to the port 36 and the port 34 is closed. However, if the space to be heated and the tap water are to be heated at the same time, the three-way 8005222 - '. The valve 37 is positioned in such a way that, depending on the ratio between the heat quantities required by the space and the tap water, the port 34 has a certain passage and the port 35 has a complementary open passage. are connected to port 36. In that case heated secondary medium (water) flows through ports 22, 25 of the first three-way cock through the primary space 15 of the second heat exchanger 16 to port 35 or / and over line 38 and the check valve 39 to the radiators and from there over the port 34 to the port 10 36 and the suction side of the pump 11. The radiators are then either with all the return water from the heat exchanger of the tap water heating system, or with part of that return -. water heated. The possibility of connecting the tap water heating device and the radiators for the space heating entirely in series or partly in series and partly in parallel, appears to improve the stability of the room heating, because heat can also be added to the radiators. when hot water is tapped.

It is noted that in this exemplary embodiment 20 the three-way cock 22,23,25 interconnects the ports 22,25, even if no heat is required. This is necessary to keep the pump circuit closed.

In the system outlined in figure 3, the "separate heat consumption installations are connected in series in the primary ring 1,2. Each primary conduit loop 5, 3, 7 of such an installation is bridged by a controllable three-way valve 40, which is designed as a gradually switchable switch tap, the passage of which port 41 and that of port 42 are gradually reduced respectively. can be enlarged, and vice versa, and gate 43 is always open. According to the heat requirement, more or less warm primary medium can therefore be fed to the heat exchanger 4 of the consumption installation and less or more of this medium directly to the next heat consumption installation.

The three-way valve 40 can be controlled on the one hand by the room thermostat and the tap water thermostat on the other hand by the temperature difference of the medium in lines 5 and 7. The 8005222 * -9- U— = setting of the three-way valve 40 during heat consumption must then be such that the temperature difference remains almost constant.

To the link room 9 of the first .., 5. heat exchanger 4, the secondary pipe circuit according to fig. 1 or that according to figi 2 may be connected *

It will be understood that the valves 44, 45 present only for emergencies are normally open and the valve 46 is normally closed.

4 8005222

Claims (6)

1. District or block heating system, comprising a primary pipe circuit containing a first heating medium with a heat source for heating that medium and a number of separate, composite heat consumption installations intended at least for space heating and tap water heating, each comprising at least one secondary pipe circuit, space heating devices and a tap water heating device comprising a second heating medium, the secondary pipe circuit being thermally coupled over a first heat exchanger with the primary pipe circuit and over a second heat exchanger with the tap water pipe of that appliance characterized in that the space heating devices are incorporated directly into the secondary conduit circuit and 15 'means for controlling the flow of fluid flowing through the primary space of the first heat exchanger depending on the heat consumption are provided t. 2. District or block heating system according to claim 1, characterized in that the space heating devices and the primary space of the second heat exchanger of a heat consuming installation over a three-way cock between the ends of the series connection of the link space of the first heat exchanger. and a circulation pump are connected and the three-way valve is arranged such that the valve or the space heating devices or the main room of the second heat exchanger can be connected to one end of this series circuit. 3. District or block heating system according to claim 1, characterized in that the space heating devices and the primary space of the second heat exchanger of a heat consumption installation with their supply ends over a first three-way valve on the return section of the series connection of the link room of the the first heat exchanger and a circulation pump and with their return ends connected to a supply end of said series connection via a controllable second three-way valve, the first three-way valve is arranged and constructed in such a way that the valve either 8005222 "11th the space heaters or the main room of the the second heat exchanger can be connected to the return section of that series circuit, the second three-way valve is designed as a controllable, gradually switchable switching valve and is arranged in such a way that the valve or only the space heaters or only the main room of the second heat exchanger, or both d ie devices over an opening with adjustable passage if that primary space is / is connectable over an opening with complementary passage to the supply end of that series circuit, and that the return purge of the primary space of the second heat exchanger is connected to the supply end of the space heating appliances over a pipe with a non-return valve closing to that return line. District or block heating system according to claim 1, 2 or 3, the heat consumption installations of which are connected parallel to each other between the supply pipe and the return pipe of a primary ring pipe connected to the heat source, characterized in that the means for dependence on the heat consumption controlling the flow of heating medium flowing through the primary space of the first heat exchanger of a heat consumption installation consists at least of an automatically operable valve included in the supply or return pipe of that primary heat exchanger space, which valve only responds to demand heat is opened. 5. District or block heating system according to claim 4, characterized in that said means also comprise an automatically operable valve included in said return pipe with a passage controllable by the temperature of the heating medium flowing through said return pipe. District or block heating system according to claim 1, 2 or. 3, the heat consuming installations of which are connected in series in a primary loop connected to the heat source, characterized in that the means for controlling, depending on the heat consumption, the through the primary space of the first heat exchanger 8005222 * N. -12 - flow of heating medium flowing from a heat consuming installation comprises at least a three-way valve designed as a controllable, gradually switchable switching valve, which is arranged such that through said valve 5 either only the primary space of the first heat exchanger, or only bridging this primary space connection channel, or both that primary space over an opening with adjustable orifice and that bridging connection channel over an opening with complementary orifice in series in 10 which ring loop is connectable, and that this three-way valve depends on the heat requirement and the temperature difference over the primary space of the first war the exchanger is adjustable. 8005222